TY - GEN
T1 - Supernumerary Robotic Fingers for Assistance in Cylindrical and Pinch Grasps
AU - Mio, Renato
AU - Morveli, Alejandro
N1 - Publisher Copyright:
© 2023 IEEE.
PY - 2023
Y1 - 2023
N2 - Grasping impairments constitute a major limitation that affects the performance in many activities of daily life. Current assistive devices, such as hand exoskeletons, are designed to aid patients by giving them the additional assistance force necessary to close the hand and grip objects. However, this often results in improvement of only power grasps (such as cylindrical and spherical grasps), but not precision grasps. Another alternative for assisting hand function is to 'augment' the hand with additional robotic fingers. These supernumerary robotic fingers can assist the hand grasping function by performing a grip in coordination with the palm (analogous to an extra thumb) or by performing grasps on their own when there are two or more extra fingers. This work presents an assistive device comprising two supernumerary robotic fingers aimed for people with hand grasping limitations. The extra fingers can assist in performing power grasps such as cylindrical in conjunction with the user's palm or performing precision grasps such as pinch grasp. The fingers are actuated by servomotors and their positions are controlled by commands derived from the wearer's wrist movements. Hence, this new design seeks to assist people through an easy-to-operate interface that avoids the use of joints unrelated to the motor task and thus provides natural control for the patient.
AB - Grasping impairments constitute a major limitation that affects the performance in many activities of daily life. Current assistive devices, such as hand exoskeletons, are designed to aid patients by giving them the additional assistance force necessary to close the hand and grip objects. However, this often results in improvement of only power grasps (such as cylindrical and spherical grasps), but not precision grasps. Another alternative for assisting hand function is to 'augment' the hand with additional robotic fingers. These supernumerary robotic fingers can assist the hand grasping function by performing a grip in coordination with the palm (analogous to an extra thumb) or by performing grasps on their own when there are two or more extra fingers. This work presents an assistive device comprising two supernumerary robotic fingers aimed for people with hand grasping limitations. The extra fingers can assist in performing power grasps such as cylindrical in conjunction with the user's palm or performing precision grasps such as pinch grasp. The fingers are actuated by servomotors and their positions are controlled by commands derived from the wearer's wrist movements. Hence, this new design seeks to assist people through an easy-to-operate interface that avoids the use of joints unrelated to the motor task and thus provides natural control for the patient.
KW - assistive devices
KW - hand grasps
KW - supernumerary robotic fingers
KW - wearable robots
UR - http://www.scopus.com/inward/record.url?scp=85165496776&partnerID=8YFLogxK
U2 - 10.1109/BioSMART58455.2023.10162114
DO - 10.1109/BioSMART58455.2023.10162114
M3 - Conference contribution
AN - SCOPUS:85165496776
T3 - BioSMART 2023 - Proceedings: 5th International Conference on Bio-Engineering for Smart Technologies
BT - BioSMART 2023 - Proceedings
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 5th International Conference on Bio-engineering for Smart Technologies, BioSMART 2023
Y2 - 7 June 2023 through 9 June 2023
ER -